Fluid Mechanics - II: Study Material

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Syllabus of Fluid Mechanics II (SPPU) (👈 click here for pdf)

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⇰ Practice Test 1 (👈 click here to attempt)💥New💥

⇰ Practice Test 2 (👈 click here to attempt)💥New💥

⇰ Practice Test 3 (👈 click here to attempt)💥New💥

⇰ Practice Test 4 (👈 click here to attempt)💥New💥

⇰ Practice Test 5 (👈 click here to attempt)💥New💥

⇰ Practice Test 6 (👈 click here to attempt)💥New💥

Section - I: Handwritten Notes

Unit I: Flow Around Submerged Bodies

Handwritten Notes - Part 1 (👈 click here for pdf)
Handwritten Notes - Part 2 (👈 click here for pdf)
Handwritten Notes - Part 3 (👈 click here for pdf)

Unit II: Open Channel Flow | Part 1

Handwritten Notes (👈 click here for pdf)

Unit III: Open Channel Flow | Part 2

Handwritten Notes (👈 click here for pdf)

Unit IV (a): Impact of Jet 

Handwritten Notes (👈 click here for pdf)

Unit IV (b): Centrifugal Pump 

Handwritten Notes (👈 click here for pdf)

Unit V: Turbines 

Handwritten Notes (👈 click here for pdf)

Unit VI: Gradually Varied Flow 

Handwritten Notes (👈 click here for pdf)

Section - II: e-Notes

Unit I: Flow Around Submerged Bodies

Unit I: Single File (⇦ click here for pdf)

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1.1 Introduction (⇦ click here for pdf)

1.2 Concept of Drag and Lift (⇦click here for pdf)
1.3 Expression for Drag and Lift (⇦ click here for pdf)
1.4 Derivation of Expression for Drag and Lift (⇦ click here for pdf)
1.5 Types of Drag (⇦ click here for pdf)
1.6 Factors Affecting Drag Force (⇦ click here for pdf)
1.7 Numerical - Part 1 (⇦ click here for pdf)
1.8 Numerical - Part 2 (⇦ click here for pdf)
1.9 Drag on Sphere - Ideal Fluid (⇦ click here for pdf)
1.10 Drag on Sphere - Real Fluid (⇦ click here for pdf)
1.11 Drag on Sphere - Stoke's Law (⇦ click here for pdf)
1.12 Drag on Sphere - Numerical (⇦ click here for pdf)

1.13 Drag on Cylinder (⇦ click here for pdf)

1.14 Development of Lift on Cylinder (⇦ click here for pdf)

1.15 Magnus Effect (⇦ click here for pdf)

1.16 Lift on Cylinder: K-J Equation (⇦ click here for pdf)

1.17 Lift on Airfoil (⇦ click here for pdf)

1.18 Unsteady Flow - Introduction (⇦ click here for pdf)

1.19 Time for Emptying the Tank - Case 1 (⇦ click here for pdf)

1.20 Time for Emptying the Tank - Case 2 (⇦ click here for pdf)

1.21 Numerical (⇦ click here for pdf)

1.22 Compressibility (⇦ click here for pdf)

1.23 Water Hammer Part 1 (⇦ click here for pdf)

1.24 Water Hammer Part 2 (⇦ click here for pdf)

1.25 Numerical (⇦ click here for pdf)

Unit II: Open Channel Flow | Part 1

Unit II: Single File (⇦ click here for pdf)

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2.1 Introduction and Types of Channel (⇦ click here for pdf)

2.2 Basic Equation (⇦ click here for pdf)

2.3 Velocity Distribution (⇦ click here for pdf)

2.4 Geometrical Element (⇦ click here for pdf)

2.5 Specific Energy (⇦ click here for pdf)

2.6 Critical Parameters (⇦ click here for pdf)

2.7 Depth-Discharge Diagram (⇦ click here for pdf)

2.8 Specific Force Diagram (⇦ click here for pdf)

2.9 Open Channel Transitions (⇦ click here for pdf)

2.10 Numerical (⇦ click here for pdf)

2.11 Notches and Weir (⇦ click here for pdf)

Unit III: Open Channel Flow | Part 2

Unit III: Single File (⇦ click here for pdf)

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3.1 Chezy's and Manning's Equations (⇦ click here for pdf)

3.2 Numerical (⇦ click here for pdf)

3.3 Most Economical Channel Section (Rectangular and Trapezoidal) (⇦ click here for pdf)

3.4 Most Economical Channel Section (Triangular) (⇦ click here for pdf)

3.5 Most Economical Channel Section (Circular) (⇦ click here for pdf)

3.6 Numerical: Set 1 (⇦ click here for pdf)

3.7 Numerical: Set 2 (⇦ click here for pdf)

3.8 Hydraulic Jump: Introduction (⇦ click here for pdf)

3.9 Hydraulic Jump: Derivation (⇦ click here for pdf)

3.10 Hydraulic Jump: Energy Loss (⇦ click here for pdf)

3.11 Hydraulic Jump: Numerical (⇦ click here for pdf)

Unit IV (a): Impact of Jet

Unit IV (a): Single File (⇦ click here for pdf)

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4.1 Impact of Jet: Introduction (⇦ click here for pdf)

4.2 Case  - I: Force Exerted by Jet | Flat Plate (⇦ click here for pdf)

4.3 Case  - I: Force Exerted by Jet | Curved Plate (⇦ click here for pdf)

4.4 Case  - I: Numerical (⇦ click here for pdf)

4.5 Case  - II: Force Exerted by Jet | Flat Plate (⇦ click here for pdf)

4.6 Case  - II: Force Exerted by Jet | Flat Inclined Plate (⇦ click here for pdf)

4.7 Case  - II: Force Exerted by Jet | Curved Plate (Symmetrical) (⇦ click here for pdf)

4.8 Case  - II: Force Exerted by Jet | Curved Plate (Un-Symmetrical) (⇦ click here for pdf)

4.9 Case  - II: Numerical (⇦ click here for pdf)

Unit IV (b): Centrifugal Pump

Unit IV (b): Single File (⇦ click here for pdf)

Unit V: Turbines

Unit V: Single File (⇦ click here for pdf)

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5.0 Click here for topic-wise PPTs 

Unit VI: Gradually Varied Flow

Unit VI: Single File (⇦ click here for pdf)

Section - III: Video Lectures

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Unit I: Flow Around Submerged Bodies

1.1 Introduction

1.2 Concept of Drag and Lift

1.3 Expression for Drag and Lift

1.4 Derivation of Expression for Drag and Lift

1.5 Types of Drag

1.6 Factors Affecting Drag Force

 1.7 Drag and Lift: Numerical (Part 1)

 1.8 Drag and Lift: Numerical (Part 2)

1.9 Drag on Sphere: Ideal Fluid

1.10 Drag on Sphere: Real Fluid

1.11 Drag on Sphere: Stoke's Law

1.12 Drag on Sphere: Numerical

1.13 Drag on Cylinder

1.14 Development of Lift on Cylinder

1.15 Magnus Effect

1.16 Lift on Cylinder: K-J Equation

1.17 Lift on Airfoil

1.18 Unsteady Flow - Introduction

1.19 Time For Emptying the Tank - Case 1

1.20 Time For Emptying the Tank - Case 2

1.21 Numerical

1.22 Compressibility

1.23 Water Hammer in Pipes - Part 1

1.24 Water Hammer in Pipes - Part 2

1.25 Water Hammer in Pipes - Numerical

Unit II: Open Channel Flow | Part 1

2.1 Introduction and Types

2.2 Basic Equations

2.3 Velocity Distribution

2.4 Geometrical Elements

2.5 Specific Energy

2.6 Critical Parameters

2.7 Depth-Discharge Diagram

2.8 Specific Force Diagram

2.9 Channel Transitions

2.9 Channel Transitions: Numerical

Unit III: Open Channel Flow | Part 2

3.1 Chezy's and Manning's Equation

3.2 Numerical: Chezy's and Manning's Equation

3.3 Most Economical Channel Section | Part 1

3.4 Most Economical Channel Section | Part 2

3.5 Most Economical Channel Section | Part 3

3.6 Numerical: Most Economical Channel Section | Part 1

3.7 Numerical: Most Economical Channel Section | Part 2

3.8 Hydraulic Jump : Introduction

3.9 Hydraulic Jump : Derivation

3.10 Hydraulic Jump : Energy Loss

3.11 Hydraulic Jump : Numerical

Unit IV: Impact of Jet

4.1 Impact of Jet: Introduction

4.2 Case - I (Stationary): Force exerted by Jet on Flat Plate

4.3 Case - I (Stationary): Force exerted by Jet on Curved Plate

4.4 Case - I (Stationary): Numerical

4.5 Case - II (Moving): Force exerted by Jet on Flat Plate

4.6 Case - II (Moving): Force exerted by Jet on Flat Inclined Plate

4.7 Case - II (Moving): Force exerted by Jet on Curved Plate

4.8 Case - II (Moving): Construction of Velocity Triangles

4.9 Case - II (Moving): Work done/sec by Jet on Curved Plate

4.10 Case - II (Moving): Efficiency of Jet (Curved Plate)

4.10 Case - II (Moving): Numerical (Curved Plate)

Unit V: Turbines

5.0 Click here for video lectures (Visit video lecture section)